cje ›› 1999, Vol. ›› Issue (6): 54-58.
Previous Articles Next Articles
Tu Xiuliang1, Hu Bingmin2
Received:
1998-03-09
Revised:
1998-04-10
Online:
1999-12-10
Tu Xiuliang, Hu Bingmin. Advances in the Research of Weeds and Crops Competition Model[J]. cje, 1999, (6): 54-58.
Add to citation manager EndNote|Ris|BibTeX
[1] Kropff,M.J.and H.H.van Laar(eds.).Modeling crop weed interactions.CAB international, Wallingford,U K and IRRI,Los Banos,Philippines.1993. [2] Spitters,C.J.T.and J.P.van Den Bergh.Competiton between crop and weeds:A system approch.in Biology and ecology of weeds.Holzner, L.et al.eds,J unk publishers,t he Hague,1982, 137-148. [3] Cousens,R.A simple model relating yield loss to weed density.A nnals of A pplied Biology,1985, 107:239-252. [4] 刘德立等.杂草对作物产量损失的经验模型.植 物保护学报,1991,18(4):371-377. [5] 张朝贤等.杂草密度与作物产量损失的预测模 型.植物保护,1997,23(2):6-10. [6] Spitters,C.J.T.et al.Competition between maize and Echi nochloa crus-galli analysed by a hyperbolic regression model.A nnals of A pplied Biology,1989,115:541-551. [7] Kropff,M.J.et al.A simple model of crop loss by weed competition from early observations on relative leaf area of weeds.Weed Research,1991,31: 97-105. [8] Lotz,L.A.P.et al.Prediction of t he competitive effects of weeds on crop yields based on t he relative leaf area of weeds.Weed Research,1996,36:93 -101. [9] Lotz,L.A.P.et al.Techniues to estimate relative leaf area and cover of weeds in crops for yield loss prediction.Weed Research,1994,34:167-175. [10] Knezevic,S.Z.et al.Comparison of empirical models depicting density of A m arant hus Ret rof lex us L.and relative leaf area as predictors of yield loss in maize(Zea m ays L.).Weed Re2 search,1995,35:207-214. [11] Cousens,R.An empirical model relating crop yield to weed and crop density and a statistical comparison wit h ot her models.Journal of A gricult urel Science,1985,105:513-521. [12] Wilson,B.J.et al.Predicting t he competitive effects of weed and crop density on weed biomass, weed seed production and crop yield in wheat. Weed Research,1995,35:265-278. [13] Dieleman,A.et al.Decsions rules for postemer2 gence control of pigweed(A m arant hus spp.)in soybean(Glyci ne m ax).Weed Science,1996,44: 126-132. [14] 郭青云等.野燕麦、遏兰菜复合群体对小麦产量 损失研究.植物保护学报,1993,20(4):369- 374. [15] Ferrero,A.Prediction of Heterant hera renif ormis competition wit h flooded rice using day-degrees. Weed research,1996,36:192-201. [16] L ut man,P.J.W.et al.Investigations into alternative met hods to predict t he competitive effects of weeds on crop yields.Weed Science,1996,44: 290-297. [17] Tu Xiuliang,L uo Shiming.Research on t he com2 petitional relationship between introduced forages species and local weed species in t he Uplands of Sout h China.Asia-Pacif ic U plands,1992,4:6 -8. [18] Wilson,B.J.et al.Predicting t he growt h and competitive effects of annual weeds in wheat.Weed Research,1990,30:201-211. [19] Penning de Vires,et al.Simulation of plant growt h and crop production.Simulation Monographs,PU DOC,Wageningen.The Net herlands.1982. [20] Penning de Vires,F.W.T.et al.Simulation of ecophysiological processes of growt h in several annual crops.Simulation Monographs.PUDOC.Wa 2 geningen.The Net herlands.1989. [21] Baker,D.N.et al.GOSSYM:a simulator of cotton crop and yield.Sout h.Caroli na A gric.Ex p.S t n.Tech.B ull.,No.1089.Clemson Univ., Clemson.1983. [22] Lemmon,H.Comax:a expert system for cotton crop management.Science,1986,222:29-33. [23] 曹永华.美国CERES作物模拟模型及其应用. 世界农业,1991,9:52-55. [24] 吴国伟等.棉花生长发育模拟模型的研究.生态 学报,1988,8(3):201-209. [25] 陈华等.小麦发育动态模拟模型的初步研究.中 国农业气象,1995,16(1):1-4. [26] 骆世明.水稻高产栽培中的计算机模拟研究.山 东农业大学学报,1992,23(增):87-94. [27] 黄策,王天铎.水稻群体物质生产过程产计算机 模拟.作物学报,1986,12(1):1-7. [28] 夏北成.麦田生态系统的计算机模拟及最优控 制.北京大学出版社,1990. [29] 翟连荣等.棉铃虫与棉花生长发育耦合系统的 建立.应用生态学报,1991,2(2):134-140. [30] L uo,Y.et al.A rice-leaf blast combined model for simulation of epdemics and yield loss.Agricultural systems,1997,53:27-39. [31] Chikoye,D.et al.Simulation of competition for photosynt hetically active radiation between common ragweed(A mbrosia artemisiif olia)and dry bean(Phaseol us v ulgaris).Weed Science,1996,44: 545-554. [32] Graf,B.et al.A simulation model for t he dynamics of rice growt h and development:part II.-t he competition wit h weeds for nitrogen and light.A 2 gricult ural S ystems,1990,32:367-392. [33] Kropff,M.J.and C.J.T.Spitters.An eco- physiological model for interspecific competition, applied to t he influence of Chenopodi u m albu m L. on sugar beet.I.Model description and parameterization.Weed Research,1992,32:437-450. [34] Kropff,M.J.et al.An eco-physiological model for interspecific competition,applied to t he influence of Chenopodi u m albu m L.on sugar beet.Ⅱ. model evaluation.Weed Research,1992,32:451 -463. [35] 由振国.夏大豆田自然单子叶杂草的生态经济 阈期研究.植物保护学报,1993,20(2):179- 183. [36] 姜德锋等.华北地区夏玉米田马唐治理的生态 经济杀除阈期研究.植物保护学报,1997,24(1):89-94. [37] 高柱平,李孙荣.夏花生田马唐的生态经济阈 值、生态经济除草阈值模型的研究.植物保护学 报,1989,10(2):139-43. [38] 王加银等.小麦田草大麦的危害分析及其经济 阈值初步研究.植物保护,1993,19(1):46- 47. [39] 张建中等.稻田稗草危害及生态经济阈值模型 研究.杂草科学,1993,1:10-12. [40] L ut man,P.J.W.et al.Investigations into alternative met hods to predict t he competitive effects of weeds on crop yields.Weed Science,1996,44: 290-297. [41] Kropff,M.J.and L.A.P.Lotz.Systems approaches to quantify crop-weed interactions and t heir application in weed management.A gricult ural S ystems,1992,40:265-282. [42] Berti,A.et al.A new approch to determine when to control weeds.Weed Science,1996,44:496- 503. [43] Khan,M.et al.Spring wheat(T riticu m aestiv u m)management can subsitute for diclofop for foxtail(S tearia spp.)control.Weed Science, 1996,44:362-372. [44] Vitta,J.I.and C.F.Quintanilla.Canopy measurements as predictors of weed-crop competition. Weed Science,1996,44:511-516. [45] Weaver,S.E.et al.Use of ecophysiological models for crop-weed interference:t he critical period of weed interference.Weed Science,1992,40: 302-307. [46] 罗庆昌,张雪龙.麦田杂草猪殃殃的生物学特性 与防除研究.植物保护学报,1984,11(4):275 -281. [47] 洪加康.猪殃殃危害损失及其防除策略初探.植 物保护学报,1986,13(2):137-141. [48] 王兆龙等.硬草主要生物学特性及防除途径的研 究.植物保护学报,1993,20(4):363-368. [49] 马晓渊.江苏麦田杂草防除研究进展.杂草科 学,1996,(2):7-10. [50] 钱 希.苏北麦田恶性杂草麦加公的生态习性 研究.生态学报,1995,15(4):453-456. [51] 薛 光.杂草生态学和生物学研究进展.生态学 杂志,1995,14(5):63-65. |
[1] | YUAN Fanghui, YING Yuxin, CHEN Ziliang, LOU Xiaohan, HU Yalin. Effects of Chinese fir leaf litter addition on soil CO2 release and priming effect under different incubation temperatures. [J]. Chinese Journal of Ecology, 2024, 43(4): 993-999. |
[2] | YUAN Huilan, ZHENG Tiantian, LIN Jiamin, BAO Xuelian, MIN Kaikai, ZHU Xuefeng, XIE Hongtu, LIANG Chao. Effect of agricultural and forest soil replacement on decomposition processes of plant residues. [J]. Chinese Journal of Ecology, 2024, 43(4): 1017-1024. |
[3] | HE Wenqiang, CHEN Lin, PANG Danbo, CAO Menghao, ZHANG Yaqi, LI Xuebin. Hydrological effects of litter layer under different vegetation types on the eastern slope of the Helan Mountains. [J]. Chinese Journal of Ecology, 2024, 43(4): 1047-1056. |
[4] | CHEN Jiachen, JIANG Zheng, WU Xionghui, CAO Guangqiu, CAO Shijiang. Effects of thinning on hydrological characteristics of litters in Cunninghamia lanceolata plantation in mountainous area of Fujian Province. [J]. Chinese Journal of Ecology, 2024, 43(4): 1057-1064. |
[5] | GUO Xiaoyu, CHENG Man, XU Maohong, HE Xinhua, WEN Yongli. Effects of iron addition on photodegradation of soil organic carbon under different slope aspects in a subalpine meadow. [J]. Chinese Journal of Ecology, 2024, 43(1): 33-40. |
[6] | ZHAO Han, WANG Haiyan, HU Xingguo, LEI Xiangdong, DU Xue, ZOU Jiahe, CUI Xue. Influencing factors of soil organic carbon in mixed spruc-efir-broadleaved forest based on structural equation. [J]. Chinese Journal of Ecology, 2024, 43(1): 264-272. |
[7] | DING Yidong, LI Suli, ZHANG Yun, XU Jiawen, WU Panpan, MAO Rong. Amounts and spectral characteristics of dissolved organic matter leached from leaf litters among different plant growth forms in subtropical plantations. [J]. Chinese Journal of Ecology, 2023, 42(9): 2081-2090. |
[8] | ZHANG Yu, WU Fuzhong, AI Ling, FAN Xuebo, YANG Ying, ZHENG Xiaping, ZHU Jingjing, NI Xiangyin. Litter input effects on soil dissolved organic carbon. [J]. Chinese Journal of Ecology, 2023, 42(9): 2107-2112. |
[9] |
HU Yuke, ZHAO Zhonghui, XIANG Wenhua.
Characteristics of evapotranspiration from Chinese fir plantation in Huitong based on eddy covariance method and a comparison with Penman-Monteith method.#br#
#br#
[J]. Chinese Journal of Ecology, 2023, 42(9): 2266-2275.
|
[10] | TONG Shenghong, RAO Xin, WANG Yaya, CAI Hongyue, LUO Xianzhen, JIAN Shuguang. Mixing Wedelia biflora litter accelerates litter decomposition of dominant tree species in Xisha Islands. [J]. Chinese Journal of Ecology, 2023, 42(7): 1577-1585. |
[11] | LI Yuanyuan, REN Shaohua, HUANG Zongsheng, LONG Shilin, FAN Chuanhua, LIU Haiyan. Characteristics of litter decomposition and nutrient release of common tree species at different altitudes in Guizhou karst region. [J]. Chinese Journal of Ecology, 2023, 42(6): 1316-1322. |
[12] | CHEN Jiaqi, ZHAI Chang, BAO Guangdao, LIU Ting, SHA Yinghu. Litter accumulation and hydrological effects of common tree species in urban forest of Northeast China. [J]. Chinese Journal of Ecology, 2023, 42(6): 1339-1347. |
[13] | YANG Qianmin, YUAN Danping, DENG Cunbao, WANG Yansheng, QIAO Ling. Research progress on net carbon sequestration capacity of plants under the background of carbon neutra-lization. [J]. Chinese Journal of Ecology, 2023, 42(6): 1484-1496. |
[14] | ZHANG Xiaoxi, LIU Kaixuan, CHE Wenrong, HU Jiawei, LI Jiangwen, TIAN Shuang. Nonadditive effects of mixed decomposition of coniferous and broad-leaved species litter on the release of phenolics. [J]. Chinese Journal of Ecology, 2023, 42(12): 2885-2894. |
[15] | YANG Na, WANG Simin, YU Lelin, MAO Rong. Effect of dry-wet cycles on quantity and characteristic of common tree litter-derived dissolved organic carbon in subtropical plantations. [J]. Chinese Journal of Ecology, 2023, 42(12): 2895-2902. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||